Washing equipment and water outlet method of washing water

ABSTRACT

A washing equipment comprises a wash barrel and a water outlet guide assembly, the wash barrel is rotatable, wherein an inside of the wash barrel holds water during washing, and an upper part of a barrel wall is provided with a water outlet; the water outlet guide assembly is arranged on the barrel wall and communicates with the water outlet, wherein water inside the wash barrel is emitted through the water outlet at the upper part and enters the water outlet guide assembly, which guides water downwards to be discharged. The water outlet guide assembly of the washing equipment directly communicates with the inside of the wash barrel, to directly guide out water inside the wash barrel downwards, thereby avoiding an influence on the rotating balance of the wash barrel when washing water is concentrated on an upper end of the wash barrel.

TECHNICAL FIELD

The present disclosure belongs to the field of washing, in particular to a washing equipment and a water outlet method of washing water.

BACKGROUND

A traditional fully-automatic impeller-type washing machine generally includes an inner drum, an outer drum, a damping part and a power system. During clothes washing and dehydrating, the inner drum rotates relative to the outer drum, such that clothes interact with washing water, to achieve the purpose of washing clothes or dehydrating, wherein the outer drum is installed outside the inner drum, to provide support for the inner drum. The outer drum serves as a water accommodating bucket, a side wall of the inner drum is uniformly distributed with drainage holes, such that the inner drum and the outer drum are communicated. In the clothes washing process, clothes are placed in the inner drum, the water levels of the two drums are the same, and however, the outer drum is not in contact with clothes. A volume of the outer drum of the existing washing machine is larger than a volume of the inner drum, causing accumulation of more washing water between the inner drum and the outer drum, the detergent between two drums cannot be sufficiently utilized, thereby not only increasing water amount during clothes washing, but also lowering concentration of the detergent during washing, and causing a rather big volume of the whole washing machine. In addition, after the washing machine is used for a period of time, the inner wall of the outer drum and the outer wall of the inner drum may be adhered with dirt, and may be even moldy, further the washed clothes may be polluted, and the drum wall is difficult to clean.

Aiming at this condition, some manufacturers made some improvements. To save water resources, more and more washing machines adopt an inner drum without holes, such that the inner drum is separated from the outer drum, only the inner drum stores water, and the outer drum has no water. Drain holes are formed close to an upper end of the side wall of the inner drum, in this way, when the washing machine dehydrates, water is splashed on an inner wall of the inner drum due to the effect of a centrifugal force, moves upwards along the inner wall of the inner drum, and is discharged from the drainage holes at the upper end of the inner drum, thereby improving the effect of water conservation of the washing machine, and saving use amount of detergent.

However, the above solution has the following problems: since the washing machine rotates at a high speed during dehydration, water in the clothes is thrown away through drain holes on the side wall of the inner drum, and hits directly on a side wall of an outer drum, and water easily splashes everywhere, and water accumulated on the inner wall of the outer drum is easy to breed bacteria and is not beneficial for environmental protection.

A Chinese patent with the application number of CN99230455.5 discloses a single-bucket type water-saving washing machine, a bucket mouth of the wash bucket is provided with a water collecting device, the water collecting outlet of the water collecting device surrounds the bucket mouth along the wash bucket, a water collecting chamber, arranged at the bucket mouth, of the water collecting device is connected with a plurality of drainage pipes, the drainage pipes are arranged symmetrically from top to bottom along the outer wall of the wash bucket. During spin-drying, the water collecting device collects centrifugal water flow due to high-speed rotation, and guides the water flow downwards to discharge the water flow. Although an outer drum is omitted in the structure, when the washing machine dehydrates, since washing water firstly enters the water collecting device, the water collecting device is an annular structure, washing water filled inside is discharged downwards at different speeds, thereby destroying the balance of high-speed rotation of the wash bucket; in addition, after entering the water collecting device, washing water is guided to the lower part of the wash bucket, and is collected towards the center and is discharged, which is not beneficial for water discharge, such that water is concentrated in the water collecting chamber under the effect of a centrifugal force and is difficult to discharge, thereby causing concentration of washing water at the upper end of the wash bucket, increasing the weight of the upper part of the wash bucket, and further destroying balance, especially when much water remains in the wash bucket, most of washing water is concentrated in the water collecting chamber and cannot be discharged, thereby improving total center of gravity of the wash bucket and the outer drum, generating great vibration noise, and also increasing the working load of a dehydrating motor, and easily damaging an electrical motor.

In view of this, the present disclosure is hereby proposed.

SUMMARY

A technical problem to be solved in the present disclosure is to overcome shortcomings of the prior art, and provide a washing equipment which can relatively increase capacity of the wash barrel, avoid washing water from concentrating above the wash barrel during dehydration and improve water outlet efficiency.

In order to solve the above technical problem, a basic conception of the technical solution adopted in the present disclosure is as follows: a washing equipment includes a wash barrel and a water outlet guide assembly.

The wash barrel is configured to be rotatable, wherein an inside of the wash barrel is configured to hold water, and an upper part of a barrel wall of the wash barrel is provided with a water outlet.

The water outlet guide assembly is arranged on the barrel wall and communicated with the water outlet.

Washing water inside the wash barrel is thrown away through the water outlet at the upper part and enters the water outlet guide assembly, and the water outlet guide assembly guides water downwards to be discharged.

Further, the washing equipment further includes a water retaining part, wherein the water retaining part is arranged above the water outlet to keep water from flowing upwards.

Further, the water retaining part is constituted by a lower edge of a balancing ring, or

the water retaining part is constituted by a structure formed by an upper opening of the washing barrel being reduced in diameter; or

the water retaining part is constituted by an annular convex rib installed on an inner wall of the wash barrel.

The above structure improves a speed at which washing water is discharged outwards through the water outlet, and the water retaining part plays a role of guiding washing water to reverse and to be discharged through the water outlet.

Further, the water outlet guide assembly is provided with a water guide chamber from top to bottom. An upper part of the water guide chamber is communicated with the water outlet. A radial width of the water guide chamber is gradually increased from top to bottom.

Further, the water outlet guide assembly is provided with a water guide chamber from top to bottom, an upper part of the water guide chamber is communicated with the water outlet. A side wall, far away from the wash barrel, of the water guide chamber is inclined from top to bottom to the direction far away from the wash barrel.

Preferably, a set inclined angle is 0° to 10°,

More preferably, the set inclined angle is 1° to 3°.

The above structure is beneficial for the speed at which washing water is discharged downwards, thereby preventing that under the effect of the centrifugal force, washing water in the water guide chamber does not flow downwards and even is clustered upwards near the water outlet in a reverse direction.

Further, the water outlet guide assembly comprises an outer housing; the outer housing is installed on an outside of the barrel wall corresponding to a position of the water outlet. A certain gap is formed between the outer housing and the barrel wall to form the water guide chamber which guides water downwards. The water outlet on the barrel wall constitutes a water inlet of the water guide chamber, and a drainage outlet is arranged at a bottom of the water guide chamber.

Or, the water outlet guide assembly comprises a housing, the housing is installed on an outside of the barrel wall. The housing is internally provided with a water guide chamber which guides water downwards, a water inlet is arranged, corresponding to the water outlet on the side, adjacent to the wash barrel, of the housing. The water guide chamber is communicated with the water outlet via the water inlet, and a drainage outlet is arranged at a bottom of the water guide chamber.

Or, the wash barrel has a double barrel wall which comprises an inner barrel wall and an outer barrel wall. An upper end of the double barrel wall is sealed, a bottom of the double barrel wall is provided with an opening, an upper part of the inner barrel wall is provided with the water outlet. A gap between the inner barrel wall and the outer barrel wall constitutes a water guide chamber of the water outlet guide assembly.

Or, the water outlet guide assembly comprises a water guide chamber manufactured by the barrel wall via a bending compression process, the water guide chamber is hollow. An upper end of a side, corresponding to the wash barrel, of the water guide chamber is provided with a water inlet, and a bottom of the water guide chamber is provided with a drainage outlet.

Further, an orientation of the water outlet is set along a radial direction of the wash barrel.

The structure is beneficial for the discharge of washing water, and the speed at which washing water is thrown away can be increased compared with the structure in which water is discharged upwards from the inside of the wash barrel.

Further, a water outlet mechanism which is capable of being opened or closed is arranged at the barrel wall below the water outlet and/or a barrel bottom of the wash barrel. The water outlet mechanism is in a close state in the washing process.

Via the structure, part of washing water inside the wash barrel can be discharged firstly, and then another part of washing water in clothes is discharged through the water outlet by utilizing the centrifugal force of rotation of the wash barrel, thereby accelerating speed of water drainage and dehydration.

Further, a part, below the water outlet, of the wash barrel and the barrel bottom are both set to be waterproof.

Further, an inner surface of the barrel wall is gradually arranged in an inclined manner towards the direction far away from a central axis of the wash barrel from bottom to top.

Preferably, a set inclined angle is 0° to 15°,

More preferably, the set inclined angle is 1° to 10°.

The structure improves the speed at which the water inside the wash barrel climbs upwards along the barrel wall.

Further, an upper part of the water outlet guide assembly is directly communicated with the water outlet, and a lower part is below a horizontal surface on which a barrel bottom is located.

Preferably, a water discharge direction of a drainage outlet below the water outlet guide assembly is set downwards or set downwards in an inclined manner towards the direction far away from a central axis of the wash barrel.

The above structure is beneficial for washing water to be discharged from the lower part of the water guide part, thereby avoiding accumulation of washing water in the water outlet guide assembly, which may lead to generation of a larger vibration noise due to center of gravity of the wash barrel and output load which drives the wash barrel to rotate.

Further, the water outlet guide assembly is internally provided with a reversing water guide structure, to guide water which is thrown away radially through the water outlet to be discharged downwards after changing direction.

Preferably, the reversing water guide structure is provided with at least one downward inclined surface or an arc surface set corresponding to the water outlet.

The above structure can play a role of guiding washing water to reverse stably, thereby preventing washing water from generating reflection and splashing inside the water outlet guide assembly, and avoiding an influence on the speed at which the water outlet guide assembly guides water downwards.

Further, the washing equipment further includes a water collecting part being installed below the wash barrel and configured to collect water discharged from the wash barrel. The wash barrel is configured to be rotatably relative to the water collecting part. The water collecting part comprises a bottom wall and a water collecting groove, a lower end of the water outlet guide assembly extends inside the water collecting groove. The water collecting groove is further provided with a drainage mechanism which discharges water inside the water collecting groove.

Further, the water collecting part further includes a side wall which is arranged in a circle above the bottom wall, and the bottom wall and the side wall are sealed to form the water collecting groove.

Further, a lowest height of the side wall is set to keep water in the water collecting groove not overflowing t when the wash barrel rotates to discharge water.

Preferably, an upper end of the side wall is not higher than ⅓ of a height of the wash barrel from bottom to top.

More preferably, the upper end of the side wall is not higher than ⅕ of the height of the wash barrel from bottom to top.

The above structure can avoid a phenomenon of beating the drum caused by eccentricity of the upper part when the wash barrel rotates at a high speed, thereby relatively increasing the volume of the wash barrel.

Further, the water collecting part is a bucket body structure, the bottom wall is a bucket bottom, and the side wall is a peripheral wall. The water collecting part is connected with a box body of the washing equipment via a damping part.

Preferably, the bucket bottom is provided with an annular groove, the lower end of the water outlet guide assembly extends inside the annular groove, and a drainage outlet is arranged at the lowest part of the annular groove.

The above structure can prevent water splashing when washing water is guided out, thereby being beneficial for rapid discharge of washing water from the water collecting part.

Or, the water collecting groove is an annular groove arranged at the bottom wall.

Further, at least two water outlet guide assemblies are arranged, and all the water outlet guide assemblies are independently uniformly distributed on the barrel wall along a circumference of the wash barrel.

The present disclosure further provides a water outlet method of washing water which can improve water outlet efficiency. In a rotating process of a wash barrel, internal washing water rises along an inner wall of the wash barrel and reaches the outside of the wash barrel through an water outlet at an upper part of the wash barrel, and is directly guided downwards to discharge through a water outlet guide assembly arranged on the wash barrel

The washing equipment in the present disclosure is an impeller-type washing machine, or a drum machine, or an all-in-one washing and drying machine, or a dish washing machine or other devices which need to discharge washing water via a centrifugal force.

After the above technical solution is adopted, the present disclosure has the following beneficial effects compared with the prior art.

The wash barrel of the washing equipment in the present disclosure can be directly taken as a water holding bucket, can improve utilization rate of washing water, reduce the use amount of washing water, and relatively reduce amount of detergent. Meanwhile, the structure of the upper part of the wash barrel surrounded by the outer drum is omitted, and the size of the wash barrel can be set larger, such that the amount of clothes can be correspondingly increased, thereby realizing the aim of expanding capacity of the washing equipment. On the other hand, the water outlet guide assembly is directly communicated with the inside of the wash barrel, washing water inside the wash barrel is directly guided downwards, thereby improving water outlet efficiency, avoiding washing water from concentrating at the upper end of the wash barrel which may influence rotary balance of the wash barrel, such that the rotation of the wash barrel is more stable, the noise is lower during operation, and the service life is longer.

A further detailed description will be given below on specific embodiments of the present disclosure in combination with accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

As a part of the present disclosure, accompanying drawings are used for providing a further understanding of the present disclosure, schematic embodiments and descriptions thereof of the present disclosure are used for explaining the present disclosure, rather than constituting an improper limit to the present disclosure. Obviously, accompanying drawings described below are merely some embodiments, for those skilled in the art, other drawings can be obtained based on these drawings without any creative effort. In the drawings:

FIG. 1 is a structural schematic diagram of washing equipment of the present disclosure;

FIG. 2 is a schematic diagram of a wash barrel of the present disclosure;

FIG. 3 is an amplified schematic diagram of part K of FIG. 2;

FIG. 4 is a schematic diagram of the principle of water outlet of the washing equipment of the present disclosure;

FIG. 5 to FIG. 8 are schematic diagrams of different installation structures of a water outlet guide assembly in the present disclosure.

Reference numerals in the figures: 1, box body; 2, wash barrel; 21, bucket wall; 22, inner barrel wall; 23, outer barrel wall; 24, opening; 3, power unit; 4, water collecting part; 41, bottom wall; 42, water collecting groove; 43, side wall; 5, water outlet guide assembly; 51, water guide chamber; 52, outer housing; 53, drainage outlet; 54, housing; 55, water inlet; 6, drainage mechanism; 7, balancing ring; 8, water outlet; 9, damping part; 10, locking mechanism; 11, valve plug.

It should be noted that, these drawings and text descriptions are not aiming at limiting a conception range of the present disclosure in any form, but to describe concepts of the present disclosure for those skilled in the art with a reference to specific embodiments.

DETAILED DESCRIPTION OF THE EMBODIMENTS

In order to make the object, technical solutions and advantages of the embodiments in the present disclosure clearer, a clear and complete description will be given below on technical solutions in the embodiments in combination with accompanying drawings in the embodiments of the present disclosure. The following embodiments are used for describing the present disclosure, rather than for limiting the scope of the present disclosure.

In the description of the present disclosure, it should be noted that, the directional or positional relationship indicated by such terms as “upper”, “lower”, “front”, “rear”, “left”, “right”, “vertical”, “inner” and “outer” is the directional or positional relationship shown based on the drawings, which is merely for convenient and simplified description of the present disclosure, rather than indicating or implying that the referred device or element must have the specific direction or must be constructed and operated in the specific direction, therefore, it cannot be understood as a limitation to the present disclosure.

In the description of the present disclosure, it should be noted that, unless otherwise definitely prescribed and defined, the terms “installation”, “connected” and “connection” should be understood in its broad sense. For example, the “connection” may be a fixed connection, may also be a detachable connection or an integrated connection; and can be mechanical connection or electrical connection; and the “connected” may be directly connected and can also be indirectly connected through an intermediate medium. The specific meaning of the above-mentioned terms in the present disclosure may be understood by those of ordinary skill in the art in light of specific circumstances.

As shown in FIG. 1, the washing equipment in the present disclosure includes a box body 1, a wash barrel 2, a water outlet guide assembly 5 and a power unit 3 driving the wash barrel 2 to rotate. An inside of the wash barrel 2 is configured to hold water and clothes. An upper part of the barrel wall of the wash barrel 2 is provided with a water outlet 8. A part, below the water outlet 8 of the wash barrel is in a closed and no-holes state in the washing process. Or, a part, below the water outlet 8 of the barrel wall and a barrel bottom of the wash barrel are both set to be waterproof. The water outlet guide assembly 5 is arranged on the barrel wall of the wash barrel 2 and is communicated with the water outlet 8, washing water inside the wash barrel 2 is thrown away through the water outlet 8 at the upper part and enters the water outlet guide assembly 5, and the water outlet guide assembly 5 guides washing water downwards to be discharged.

Further, the washing equipment further includes a water retaining part arranged above the water outlet 8 which can block water from continuously rising upwards, such that water flows out through the water outlet. The water retaining part is constituted by a lower edge of a balancing ring 7 in an upper opening of the wash barrel (refer to FIG. 1). Or the water retaining part is constituted by a structure formed by the upper opening of the washing barrel being reduced in diameter (refer to FIG. 2). Or the water retaining part is constituted by an annular convex rib installed on an inner wall of the wash barrel (not shown in the figures).

Embodiment 1

As shown in FIG. 2 and FIG. 5, the water outlet guide assembly 5 of the present embodiment is provided with a water guide chamber 51 from top to bottom. An upper part of the water guide chamber is communicated with the water outlet 8, and a radial width of the water guide chamber 51 is gradually increased from top to bottom.

Embodiment 2

As shown in FIG. 2, the water outlet guide assembly 5 in the present embodiment is provided with a water guide chamber 51 from top to bottom, an upper part is communicated with a water outlet 8, a side wall, far away from the wash barrel 2, of the water guide chamber 51, is inclined towards the direction far away from the wash barrel 2. The inclined angle e is 3°. The above structure is beneficial for a speed at which washing water is discharged downwards, thereby preventing that under the effect of the centrifugal force of the wash barrel, washing water in the water guide chamber does not flow downwards and even is clustered upwards near the water outlet in a reverse direction.

Embodiment 3

As shown in FIG. 3, an orientation of the water outlet 8 in the present embodiment is set towards a radial direction of the wash barrel 2. The structure is beneficial for discharge of washing water, and by utilizing the centrifugal force of rotation of the wash barrel, the radial orientation of the water outlet 8 can increase the speed at which washing water is thrown away compared with the water outlet structure of the wash barrel which discharge water upwards.

Embodiment 4

As shown in FIG. 6, the water outlet guide assembly 5 of the present embodiment includes an outer housing 52, the outer housing 52 is installed on an outside of the barrel wall 21 corresponding to a position of the water outlet 8. A certain gap is formed between the outer housing 52 and the barrel wall 21 to form the water guide chamber 51 which guides water downwards. The water outlet 8 on the barrel wall 21 constitutes a water inlet of the water guide chamber 51, and a drainage outlet 53 is arranged at a bottom of the water guide chamber 51.

Embodiment 5

As shown in FIG. 7, the water outlet guide assembly 5 in the present embodiment includes a housing 54, the housing 54 is installed on an outside of the barrel wall 21. The housing 54 is internally provided with a water guide chamber 51 which guides water downwards, a water inlet 55 is arranged, corresponding to the water outlet on a side, adjacent to the wash barrel 2, of the housing 54. The water guide chamber 51 is communicated with the water outlet 8 via the water inlet 55, and a bottom of the water guide chamber is provided with a drainage outlet 53.

Embodiment 6

As shown in FIG. 8, the wash barrel 2 in the present embodiment has a double barrel wall which comprises an inner barrel wall 22 and an outer barrel wall 23, an upper end of the double barrel wall is sealed, a lower end of the double barrel wall is provided with an opening 24, an upper part of the inner barrel wall 22 is provided with the water outlet 8, and a gap between the inner barrel wall 22 and the outer barrel wall 23 constitute the water guide chamber 51 of the water outlet guide assembly.

Embodiment 7

The water outlet guide assembly in the present embodiment includes a water guide chamber manufactured by the barrel wall via a bending compression process, the water guide chamber is hollow, and with reference to the structure of the water guide chamber 51 in FIG. 7. An upper end of a side, corresponding to the wash barrel, of the water guide chamber is provided with a water inlet, and a bottom of the water guide chamber is provided with a drainage outlet.

Embodiment 8

As shown in FIG. 1, an upper part of the water outlet guide assembly 5 in the present embodiment is directly communicated with the water outlet 8, and a lower part is below a horizontal surface on which a barrel bottom is located. Preferably, a water discharge direction of a drainage outlet 53 arranged at the bottom of the water outlet guide assembly 5 is set downwards or set downwards in an inclined manner towards the direction far away from a central axis of the wash barrel 2 (refer to FIG. 2). The structure is beneficial for washing water to be discharged via a lower part of the outlet guide assembly, thereby avoiding accumulation of washing water in the water outlet guide assembly, which may lead to generation of a larger vibration noise due to center of gravity of the wash barrel and output load which drives the wash barrel to rotate.

Embodiment 9

The water outlet guide assembly 5 in the present embodiment is internally provided with a reversing water guide structure (not shown in the figures), to guide water which is thrown away radially through the water outlet 8 to be discharged downwards after changing direction. Preferably, the reversing water guide structure is provided with at least one downward inclined surface or an arc surface set corresponding to the water outlet.

The above structure can play a role of guiding washing water to reverse stably, thereby preventing washing water from generating reflection and splashing inside the water outlet guide assembly, and avoiding an influence on the speed at which the water outlet guide assembly guides water downwards.

Embodiment 10

As shown in FIG. 1, FIG. 4 and FIG. 8, the washing equipment of the present disclosure further includes a water collecting part 4 installed below the wash barrel 2 and configured to collect water discharged from the wash barrel 2. The wash barrel 2 is configured to be rotatably relative to the water collecting part 4, the water collecting part 4 is configured to support the wash barrel 2, and the water collecting part 4 is movably connected with the box body 1 via a damping part. During washing or dehydrating, the wash barrel 2 and the water collecting part 4 will generate vibration, and vibration is absorbed by the damping part. The water collecting part 4 includes a bottom wall 41 and a water collecting groove 42, a lower end of the water outlet guide assembly 5 extends inside the water collecting groove 42. The water collecting part 4 is further provided with a drainage mechanism 6 which is configured to discharge water in the water collecting groove 42.

Embodiment 11

As shown in FIG. 1, the bottom wall 41 of the present embodiment is provided with a side wall 43, the side wall 43 extends towards a direction of the wash barrel 2 in a tendency of surrounding a bottom part of the wash barrel 2, and encloses the water collecting groove 42. The water collecting groove 42 is configured to collect washing water, and a bottom part of the water collecting groove 42 is provided with a drainage mechanism 6. At least two water outlet guide assemblies 5 are arranged outside the wash barrel 2, and all the water outlet guide assemblies 5 are independently uniformly distributed on the barrel wall along a circumferential direction of the wash barrel 2. The water outlet guide assembly 5 is vertically set, a lower end of the water outlet guide assembly 5 extends downwards to a bottom part of the wash barrel 2 along the barrel wall of the wash barrel 2, and the lower end is also provided with a drainage outlet 53. The drainage outlet 53 is arranged inside the water collecting groove 42, and water flowing out from the drainage outlet 53 will fall within the water collecting groove 42, and is discharged outside the box body 1 via the drainage mechanism 6.

Embodiment 12

The lowest height of the side wall 43 of the present embodiment satisfies that when the wash barrel 2 rotates to discharge water, water entering the water collecting groove 42 will not overflow. Preferably, an upper end of the side wall 43 is not higher than ⅓ of a height of the wash barrel 2 from bottom to top. More preferably, the upper end of the side wall 43 is not higher than ⅕ of the height of the wash barrel from bottom to top.

The above structure can avoid a phenomenon of beating the drum caused by eccentricity of the upper part when the wash barrel rotates at a high speed, thereby relatively increasing the volume of the wash barrel.

Embodiment 13

As shown in FIG. 4 and FIG. 8, the water collecting part 4 in the present embodiment is a bucket body structure, the bottom wall 41 is a bucket bottom, the side wall 43 is a peripheral wall, and the water collecting part 4 is connected with the box body 1 of the washing equipment via a damping part 9. Preferably, the bucket bottom is provided with an annular groove (not shown in the figures), the lower end of the water outlet guide assembly extends inside the annular groove, and a drainage outlet is arranged at the lowest part of the annular groove. The above structure can prevent water splashing when washing water is guided out, thereby being beneficial for rapid discharge of washing water from the water collecting part.

Embodiment 14

As shown in FIG. 2 and FIG. 5, in the present embodiment, to improve the speed at which the water inside the wash barrel climbs upwards along the barrel wall, the inner surface of the barrel wall 21 is set to be inclined towards the direction far away from the central axis of the wash barrel 2 from bottom to top. Preferably, a set inclined angle is 3° to 10°. More preferably, the set inclined angle is 5°.

Embodiment 15

As shown in FIG. 1, in the present embodiment, a water outlet mechanism which is capable of being opened and closed is arranged at the barrel wall below the water outlet and/or a barrel bottom of the wash barrel, and the water outlet mechanism is in a closed state in the washing process. Via the structure, part of water inside the wash barrel can be discharged firstly, and then another part of water in clothes is discharged through the water outlet by utilizing the centrifugal force of rotation of the wash barrel, thereby accelerating speed of water drainage and dehydration.

Specifically, the bottom part of the wash barrel 2 is provided with an inner drainage outlet, the inner drainage outlet is arranged inside the water collecting groove 42, and a valve plug 11 which can control the inner drainage outlet to be opened or closed is installed in the water collecting part 4. In the washing stage, the valve plug 11 is in a closed state, and in a dehydration stage, the valve plug 11 is in an open state. When the valve plug 11 is opened, washing water in the wash barrel 2 is discharged through the inner drainage outlet and flows into the water collecting groove 42, and is discharged outside the washing equipment through the drainage mechanism 6.

Further, a locking mechanism 10 is further arranged on the bottom wall 41, the locking mechanism 10 is arranged at a bottom part of the wash barrel 2, and is matched with the wash barrel 2 to limit rotation of the wash barrel 2. The locking mechanism 10 can lock the wash barrel 2, and prevent rotation of the wash barrel 2. In a washing stage, the locking mechanism 10 locks the wash barrel 2, such that the wash barrel 2 cannot rotate, and in a dehydration stage, the locking mechanism 10 is unlocked, such that the wash barrel 2 can rotate.

Embodiment 16

The washing equipment in the present disclosure is an impeller-type washing machine, or a drum machine, or an all-in-one washing and drying machine, or a dish washing machine and other devices which need to discharge washing water via a centrifugal force. The wash barrel in the drum machine is set to be horizontal or inclined, and the upper part at which the water outlet is located is relative to the barrel bottom.

What is described above is merely the preferred embodiments of the present disclosure, rather than limiting the present disclosure in any form, although the present disclosure has been disclosed above with the preferred embodiments, the preferred embodiments are not used for limiting the present disclosure, those skilled in the art can make some changes or modify into equivalent embodiments with equal changes by utilizing the above suggested technical contents without departing from the scope of the technical solution of the present disclosure, and the contents not departing from the technical solution of the present disclosure, any simple amendments, equivalent changes or modifications made to the above embodiments based on the technical essence of the present disclosure shall all fall within the scope of the solution of the present disclosure. 

1. A washing equipment, comprising: a wash barrel, configured to be rotatable, wherein an inside of the wash barrel is configured to hold water, and an upper part of a barrel wall of the wash barrel is provided with a water outlet; a water outlet guide assembly, being arranged on the barrel wall of the wash barrel and communicates with the water outlet, wherein water inside the wash barrel is thrown away through the water outlet at the upper part and enters the water outlet guide assembly, and the water outlet guide assembly guides water downwards to be discharged.
 2. The washing equipment according to claim 1, comprising a water retaining part, wherein the water retaining part is arranged above the water outlet to keep water from flowing upwards.
 3. The washing equipment according to claim 2, wherein the water retaining part is constituted by a lower edge of a balancing ring, or the water retaining part is constituted by a structure formed by an upper opening of the washing barrel being reduced in diameter; or the water retaining part is constituted by an annular convex rib installed on an inner wall of the wash barrel.
 4. The washing equipment according to claim 1, wherein the water outlet guide assembly is provided with a water guide chamber from top to bottom, an upper part of the water guide chamber communicates with the water outlet, and a radial width of the water guide chamber is gradually increased from top to bottom.
 5. The washing equipment according to claim 1, wherein the water outlet guide assembly is provided with a water guide chamber from top to bottom, an upper part of the water guide chamber communicates with the water outlet, a side wall, far away from the wash barrel, of the water guide chamber is inclined from top to bottom towards the direction far away from the wash barrel.
 6. The washing equipment according to claim 1, wherein the water outlet guide assembly comprises an outer housing, the outer housing is installed on an outside of the barrel wall corresponding to a position of the water outlet, a gap is formed between the outer housing and the barrel wall of wash barrel to form the water guide chamber which guides water downwards, the water outlet on the barrel wall of the wash barrel constitutes a water inlet of the water guide chamber, and a drainage outlet is arranged at a bottom of the water guide chamber.
 7. The washing equipment according to claim 1, wherein the water outlet guide assembly comprises a housing, the housing is installed on an outside of the barrel wall, the housing is internally provided with the water guide chamber which guides water downwards, a water inlet is arranged, corresponding to the water outlet on a side, adjacent to the wash barrel, of the housing, the water guide chamber communicates with the water outlet via the water inlet, and a drainage outlet is arranged at a bottom of the water guide chamber.
 8. The washing equipment according to claim 1, wherein the wash barrel has a double barrel wall which comprises an inner barrel wall and an outer barrel wall, an upper end of the double barrel wall is sealed, a bottom of the double barrel wall is provided with an opening, an upper part of the inner barrel wall is provided with the water outlet, and a gap between the inner barrel wall and the outer barrel wall constitutes the water guide chamber of the water outlet guide assembly.
 9. The washing equipment according to claim 1, wherein the water outlet guide assembly comprises the water guide chamber formed by the outward bending of the barrel wall, the water guide chamber is hollow; an upper part of a side, corresponding to the wash barrel, of the water guide chamber is provided with a water inlet, and a bottom of the water guide chamber is provided with a drainage outlet.
 10. The washing equipment according to claim 1, wherein an orientation of the water outlet is towards a radial direction of the wash barrel.
 11. The washing equipment according to claim 1, wherein a water outlet mechanism capable of being opened or closed is arranged at the barrel wall below the water outlet and/or a barrel bottom of the wash barrel, and the water outlet mechanism is in a close state in a washing process.
 12. The washing equipment according to claim 1, wherein a part, below the water outlet, of the wash barrel and the barrel bottom are both set to be waterproof.
 13. The washing equipment according to claim 1, wherein an inner surface of the barrel wall is arranged in an inclined manner towards a direction far away from a central axis of the wash barrel from bottom to top.
 14. The washing equipment according to claim 1, wherein an upper part of the water outlet guide assembly directly communicates with the water outlet, and a lower part is below a horizontal surface on which a barrel bottom is located, a water discharge direction of a drainage outlet arranged at a bottom of the water outlet guide assembly is set downwards or set downwards in an inclined manner towards the direction far away from a central axis of the wash barrel.
 15. The washing equipment according to claim 1, wherein the water outlet guide assembly is internally provided with a reversing water guide structure, to guide water which is thrown away radially through the water outlet to be discharged downwards after changing direction.
 16. The washing equipment according to claim 1, comprising a water collecting part being installed below the wash barrel and configured to collect water discharged from the wash barrel, wherein, the wash barrel is configured to be rotatably relative to the water collecting part, the water collecting part comprises a bottom wall and a water collecting groove, a lower end of the water outlet guide assembly extends inside the water collecting groove, and the water collecting groove is further provided with a drainage mechanism configured to discharge water inside the water collecting groove.
 17. The washing equipment according to claim 16, wherein the water collecting part comprises a side wall which is arranged in a circle above the bottom wall, and the bottom wall and the side wall are sealed to form the water collecting groove.
 18. The washing equipment according to claim 17, wherein a lowest height of the side wall is set to keep water in the water collecting groove not overflowing when the wash barrel rotates to discharge water.
 19. The washing equipment according to claim 16, wherein the water collecting part is a bucket body structure, the bottom wall is a bucket bottom, the side wall is a peripheral wall, and the water collecting part is connected with a box body of the washing equipment via a damping part.
 20. The washing equipment according to claim 16, wherein the water collecting groove is an annular groove arranged on the bottom wall.
 21. (canceled)
 22. (canceled) 